Grain-separating machine.



No. 684,855. Patented 0st. 22, |90I.v

J. L. UWENS. anAm SEP/:RATING MACHINE.

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(Application led Aug. 21. 1897.)

2 Sheets-Sheet 2.

(No Model.)

' `JOHN L. OWENS, OF MINNEAPOLIS, MINNESOTA.

GRAIN-SEPARATING MACHINE.

SPEClEFCATION forming part of Letters Patent NO. 684,855, dated October 22, 1901. Application filed August 2l, 1897. Serial No. 6485984. (No model) T all whom t may' concern:

zen of the United States, residing at Minneapolis, in the county of Hennepin, State of Minnesota, have invented certain new and useful Improvements in Grain Separators and Cleaners, of which the following is a specilication.

This invention is intended to be employed for preparing wheat for use as seed; and to that end it is designed to thoroughly separate all kernels of grain other than the wheat, as well as the smaller imperfect kernels of the Wheat, from the plumper perfect kernels and also to separate the deleterious seeds and chad, sticks, sand, and other foreign matter, leaving only Ithe perfect wheat-berries inthe final receptacle.

The invention is more specifically intended to separate cockie seed from seed wheat, cockle-seed being the most difficult seed to separate from Wheat, and experience has shown that to properly separate the cockle all other deleterious seeds, as well as all foreign matter, must first have been separated from the fuller, plumper, and perfect wheat before the nal separation of the cockle from the wheat can be effectually accomplished.

The object of the invention is to produce a machine which will thus effectuallyseparate all seeds other than the full perfect wheatberries, as well as all foreign matter, from the cockie and wheat and then separate the cockie-seeds from the perfect wheat-berries.

The present mechanism embodies improvement-s upon machines of the sort shown in my earlier patent, No. 384,002, dated September 4, 1888. The mechanism in that patent contained an upper vibrating shoe and a fan and at the bottom a supplemental separator having an inclined perforated grain-floor with a retarding-belt above it, the inclination of the iloorbeing such that the grain-berries were caused to roll downward thereon, the speed of the belt being such that the transverse cleats would partially stop, check, or retard the berries and compel them to retain their transverse positions and continue their downwardly-rolling motion and the perforations in the Hoor being such that the short rounder berries and broken wheat-kernels could drop therethrough, while the longer perfect ones were held up and finally delivered atthe bot- Be it known that I, JOHN L. OWENS,4a ci'titom. To the machine in my earlier patent there were a number of disadvantages which it is the purpose of the present device to overcome.

In the earlier construction the grain was not carried directly from the upper winnowershoe to the retarding-belt and perforated floor, but was subjected to the operation of intervening mechanismto Wit, a peculiar dragging and sifting device having a perforated screen-floor and a exible fabric arranged to press upon the upper surface of the floor, the intention being to have the fabric turn the berries or longer seeds to lines longitudinal of t-he lines of travel. This intermediate dragging-screen was principally intended for the removing of oats; butin practical use it has been found that while such a mechanism was advantageous under some circumstances it is under others liable to cause loss of desirable seeds. In treating Wheat, for instance, of the sort whose berries are relatively long it is difficult to produce a perfect separation between the wheat and the oats if dependence is placed upon the length of the seeds. I-Iencel here employa different method of separation and so dispose the parts of the upper element (the fan and the winnoWer-screen) and so adjust the strength and direction of the blast that I remove the oats in that part of the mechanism, leaving the other element (the lowersupplemental separator) to act upon the principle of difference in shape. Again, in my earlier construction the intervening oat-separator just referred to acted in such way as to deliver the grain tothe top side or upward-movingside of the lower apron o1' retarding-belt; but as this belt must necessarily be at a steep inclination difficulty was experienced in that the grain dropping upon its upper or upward-moving leg was not properly guided and carried upward, and

there was liability for it to escape downward by bounding or otherwise. In ythe present machine l deliver the material which passes through the upper screen directly to the space between the upper roll of the retarding-belt and the perforated steeply-inclined door below it, and I insure that the only seeds which have any material elongation and which come in contact with the lowermost screen are the IOO wheatberries,the other relatively long seeds, such as oats, being removed by the screening and blast mechanism, only the heavier ones heilig allowed to drop, such as the wheat and the cockie.

It is true I preserve a number of the advantages incident to my earlier mechanism, such as this, that the fan and the shoe-screens are so related to each other that the jets or blasts of air are not all carried upward and largely forced vertically through the screens in the way almost universally common in grain-winnowers. I employ an overacting fan, as I did in my earlier machine, both differing in that respect from the previous art, this fan having a casin g or drum which is almost entirely continuous around the circle, it having a narrow airexit near the top, through which the airis projected on practically horizontal lines, the screens being so arranged that the air travels approxi mately parallel to them.

The present invention further relates to improvements in the construction of the fan casing or drum, the shoe, the arrangement thereof relative to the fan, and the arrangement therein `of the screens and also improvements in the means for connecting together the twodifferentlyacting separators and the parts thereof, so that the feed of the material shall be accurately regulated and so that thespeed of the parts and of the feed shall be kept practically constant under the action of a balancing and momentum device, all of which will more fully appear from the description below.

Figure l is a side elevation of a separator embodying my improvements as seen from the power side. Fig. 2 is an elevation from the rear end. Fig. Bis avertical longitudinal section. Fig. et is a perspective View of the feed-board detached. Fig. 5 is aview of the tension mechanism of the cockle-separating belt- The mechanism is supported by legs A,witl1 the feed-hopper B at the upper part, as shown. Beneath the feed-hopper is suspended by parallel bars ct' a shoe C', containing a series of inclined screens D, the inner or rear open end b of the shoe being angularly formed and corresponding to the angularly-formed mouth or discharge `end b2 of the fan-casing E', so

that the blast from the fan E2 will be con` ducted n an upwardlyslanting direction against the upper imperforate ends of the screens D and by them deflected along the lower surfaces of the screens and parallel thereto, as shown. It will be noted, as above stated, that the outlet b2 of the fancase E is inclined and that thefan-case projects partially beneath the inner or upper correspondinglyinclined end b2 of the shoe C', so that the distance between the fan-blades E3 and the screens D is minimized, whereby the blast is directed more directly into the spaces between the screens and leaving the shortest possible interval of space between the fan- 2 essere blades and the screens against which the blast generated by them acts. By the inclined positions of the two adjacent parts b b2 the fancase is brought forward beneath the shoe and the blast conducted upward at an angle against the imperforate ends of the screens and thence deiiected along beneath the screens and parallel thereto, so that none of the air-currents are driven directlyupward through the screens, but first expend their force against the particles of material falling through the screens and acting upon them at right angles to the flow of the material. The blasts of air, therefore, do not disturb the material upon the screens to a deleterious eX- tent, as the only air which passes upward through the screens is the small quantity which finds its way indirectly from between the screens. This is a very important feature of my invention, as itfenables me to secure the best possible results by effectually removing all the lighter particles, which the blasts of air will carry off, and leave the heavier particles only to pass through the screens Dand be discharged over the tails of the screens. In the relative arrangement and construction of the screens and the fan there are marked improvements over my earlier mechanism. Therein I employed a relatively-elongated duct or trunk between the shoe nscreens and the blast-fan, the result being that the power of the air-blastl was materially reduced in passing through the duct or trunk prior to reaching the materials on the screen. In the present machine it will be seen that I not only dispense entirely with the duct or trunk, but, in fact, form the airexit by cutting off part of the cylinderof the fan drum or casing and then bring the shoe and its screens close to the circle of the fanblades, as above described, so that the currents or blasts of air are available to their full efficiency. vAnother resultobtained by having the different inclinations of the shoe-screens is that upon the second and third screens I maintain a practically uniform distribution of the material and a corresponding uniform resistance to the air at all points on both of them. The lower screen is approximately tangential to the circle of the fan-blades, while the second and third screens above are tangential to larger circles, and therefore there is a tendency gradually increasing upward for the air to impinge on the screens transversely and for some of it to pass verticallyuthrough them. Hence a relatively large mass of lighter foul material is carried off from the upper screen, a somewhat smaller mass froln the second one, and the least of all from the lower one, and the wheat-berries travel gradually slower and slower, as is desirable, there being a gradual decrease in the mass of foreign material that remains and an increase in the quantity of grain per inch. In this respect my screening and winnowing mechanism differs from most of the earlier grainwi1mowing machines. The latter were ICO IIO

designed to effect the entire separation (or las much thereof as possible) by the air-blast, which was directed not only against those screens that were above the axis of the fan, but even against the final inclined bottom screen, which is located below the fan-aXis; but one of my purposes is to effect the principal separation through differences in shape, and the airblast and screening are to be regarded merely as a preliminary cleansing step. I prevent the blast from impinging upon the grain after it has reached the lower screen,as such action would fatally interfere with the peculiar mode of operation thereof and of the retarding-conveyer. To do this, I carry the casing or drum of the fan up toa high line, so as to shield the lower separator from the action of the air, and arrange the gathering-board O5 so that it shall serve as a fender, it lying in a plane above the upper `end of the lower screen. It will also be noted that the screens gradually decrease in horizontal angle from their head ends toward their tail ends, whereby two very important results are produced: First, the screens become flatter or more nearly horizontal from the coarser upper screens toward the finer lower screens, thereby insuring a more complete and perfect action, as the finer the material to be separated becomes the less of an incline is required to the screens. The screens therefore being gradually decreased in inclination from the coarser toward the finer and the material passing through them correspondingly increasing in flneness, the action of the air-blast is correspondingly uniform and regular and effectually removes all the lighter particles of deleterious matter without disturbing the material which it is desired to separate by means of the screens. Another advantage gained by this grad ually-decreasing inclination of the screens is that the spaces between the screens are correspondingly gradually decreased, so that the spaces are gradually contracted from the head toward the tails of the screens, whereby the air-blasts are somewhat retarded and caused to act with a greater effect upon the particles to be carried off by them and giving the heavier particles a better opportunity to be precipitated upon the next screen below. These are two very import-ant functions of the screens as arranged in my machine and are very effective in separating all the kernels of seeds other than the wheat and cockie, as well as the foreign matter which is mingled with the wheat.

The seeds, deleterious and otherwise, found mingled with the wheat are oats, cockle, wild buckwheat, wild mustard, wild peas, millet, timothy, and other grass-seeds and clover, as well as the particles of chaff, small sticks, sand, and other foreign matter. All of these foreign seeds are also found mingled with the oats, barley, rye, and other grains. These various foreign seeds, as well as the other foreign matter, being of different sizes 0r shapes and weights, require different agencies to remove them, and these different agencies must be very delicately arranged and controlled, so as to act upon the various particles without aecting the other particles. Some kinds of foreign seeds, for instance, can best be separated by a delicately-ad j usted airblast; but this air-blast must be so arranged that it will not affect another kind of seed, which may require a peculiarly-arranged and peculiarly-inclined screen to properly separate them. Then, again, some kinds of seed may require a peculiar form or inclination of a screen and a peculiar manipulation of the grain while passing over the screen and at the same time be protected from any influence from the air-blasts or other elements of the apparatus. I have endeavored in the arrangement of this apparatus to meet all these various conditions and combine in one machine means for completely separating all the various seeds, both valuable and'deleterious, from the wheat, as well as the foreign matter of all kinds. As before stated, cockle-seed are the most difficult of all seeds to separate and require a distinctive treatment, and require also to be treated alone with the wheat,

.as before described. By the arrangement above noted, the upper screen D being coarse and set at a steeper incline than the other screens in the shoe C will allow the finer particles to readily pass through and fall upon the next screen. These finer particles are the cockle, grass-seeds of various kinds, wild mustard, wild pea, buckwheat, rbc. As the material falls through the upper screen D it passes through the air-blast in the fan E3, and the lighter particles are thereby picked off and carried off over the tail of the screen and the heavier particles only fall upon the nextscreen. These particles being ner than those falling upon the first screen would How faster down a screen of the same inclination, but by setting the second screen at a less incline the fiow would be at about the same speed as over the upper screen, thereby securing uniform results. The material falling upon the next screen D would be still finer,and will therefore require a still less inclination of the screen to secure the retention of the material for the same length of time as upon the other screens. By this means a uniform action is secured, which is a very important feature of my invention. The decreasing distances between the screens toward the tailends is also a very important feature to secure the desired results, as all seeds, except the cockie and wheat, are thereby eectually separated out.

The shoe C is provided with a bottom board C5, leaving an airpassage C6 between the screens D and the bottom board, as shown. Beneath the shoe C is a stationary inclined frame M, containing a stationary screen M2 in its bottom and supporting an endless slatted belt M3, the latter running over drums M4 and M5, as shown. The screen M2 and the slattcd belt M3 are for the purpose of lseparoev IIO

rating the cockle from the wheat. The perforations in the screen M2 willbe shorter than the length of a wheat-kernel, butlong enough to permit the passage of the round cockle-seed. The inclination of the screen M2 will be sufficientlyacute to cause the material to flow over it by gravity, and the motion of the belt M3 will `be sufficiently slow to retard the material to cause it to roll over and over and bank up behind the slats as they slowly pass downward over the screen, thus causing the longer wheat-berries to turn lengthwise across the perforation and pass over them, while the round coclrle-seed will be precipitated to the surface of the screen by the tumbling and rolling motion and pass through the perforations, while the larger perfect berries of the wheat only pass over the tail of the screen. The presence of chaff, sticks, and larger kernels of other grains would prevent the proper coaction of the screen M2 and slatted belt M3. I-Iencet-he importance of thoroughly separating such foreign matter from the perfect wheat before it reaches the screen. Therefore, as before stated, the peculiar form and construction of the screens D in the vibrating shoe C and the close relations of the fan and i the shoe are very essential and important features of my invention in properly preparing the wheat for the coactive action of the screens I) and M2 and the belt M3.

Another matter of advantage which I have gained in the present machine, when compared with that in my earlier patent, No. 389,002, lies in the fact that I now so connect together the fan, the shoe, and the lower separator that the feeding of the material from one part to another of its path can be accurately regulated. It will be understoodthat if the lower separator is worked to its fullest efficiency and capacity it must be fed (with respect to speed and quantity) in such way that it will be directly dependent upon the speeds of the fan and the shoe-screen and the quant-ity of material passing through the screens. In earlier constructions, such as that shown in my Patent No. 389,002, where the two separators were independent of each other, there was not the same correlation with respect to the speed of feed that is attainable in one of the present character. I herein provide a combined momentum and balancing mechanism, whereby there is uniformity in speed and the parts are so related that their speeds, respectively, shall be adapted one to the other. The wheel G2 receives the power and initially drives the conveyer M3 and then in turn drives the fan by the speeding-up belt G and small pulley G5, and the latter drives the shoe by pitman F. If the conveyer is traveling slowly,there Will be, as there should be, a corresponding reduction in the quantity of grain acted on by the screen and delivered from the shoe and a corresponding reduction in the speed of the fan, and vice versa. The two elements (the crank-wheel or flywheel and the fan) being directly connected coact to maintain a uniformity of speed and prevent sudden variations, the fan serving as a balance-wheel and the wheel Gr2 as a momentum device. Hence after the parts have been once properly adjusted it is practically impossible to give too much load or ltoo little load to the bottom separator, its load being automatically governed in the way described.

The adjustable feeding device will be varied according as the initial mass to be puried and graded contains more or less chaff and other foreign material and according to its condition, whether more or less moist or heavier or lighter, for it will be remembered that the lower supplemental separator acting through difference of shapes only is not at'- fected by those conditions in which thewheat is initially found-that is to say, the lower separator will act the same if the wheat 4be moist and heavy that it will if it be dry and light, and also act the saine whetherit be originally mixed with a greater quantum of chaff and kindred foreign substances or with a lesser one. The desideratum is to deliver a constant and uniform stream of the wheat entirely irrespective of the condition in which it is initially received in the hopper, and by having the arrangement of screens above fully described I-can gradually retard the wheatkernels as they pass from screen to screen, and so adjust the feeding device as to deliver more or less to the initial stream to insure the delivery of the said uniform final stream.

I believe myself to be the first to have combined, with an overactingfan of thecharacter shown and a screen-shoe near the top of the fan and receiving air horizontally from the top thereof, a supplemental separator acting through difference in shapes having a stationary screen and an endless continuously-traveling conveyer above the stationary screen, together with means for preventing the blasts of air from impinging on the grain after it reaches the lower supplemental separator, the latter having its upper end above the bottom of the fan and its receiving-point directly below the discharge of the aforesaid screenshoe, the lower screen having a steep inclination and the retarding-conveyer being arranged close to the fan-drum or casing, and the first to have combined with two such correlated separators (one working with the joint actions of an air-blast and a screen and the other operating through differences in shape) means for automatically regulating the movements of all the parts of the said two separators, so'that the feed of the material shall be properly adjusted, and I also believe myself to be the first to provide a grain-grading device having a series of superposed screens adapted to gradually retard the advance of the wheat and consisting of a reciprocating shoe containing such screens, the latter being arranged with gradually-increasing inclinations to the horizontal, together with a fan for supplying air-blasts to the spaces below the screens, a stationary hopper, and an IOO IIO

adjustable feed device between the hopper and the initial screen, whereby the material can be fed in accordance with its varying character to the screens in such way as to have a substantially uniform stream of seeds final-ly delivered.

Having thus described my invention, what I claim as new isl. In a grain grading and separating machine,the combination of a stationary hopper, the lower separator adapted to separate seeds of one shape from seeds of another, the upper cleaning-separator comprising the fan, the ren ciprocating shoe, the series of superposed screens in the shoe, andthe adjustable positively acting, constantly moving feeding mechanism between the hopper andthe reciprocating screen, said parts being arranged substantially as set forth to supply a substantially constant stream of grain to the lower separator, as described. n

2. In a grain grading and separating machine, the combination of the stationary hopper, the fan, and the lower separator adapted to separate grains or seeds of one shape from those of another, of the reciprocating shoe, the series of superposed screens in said shoe gradually increasing upward in their inclination to the horizontal, and the bottom board in said shoe arranged to collect the grain passing through all said screens and deliver it to f the upper part of said fan, and the seriesofthe lower supplemental separator, substantially as setforth.

8. In a grain grading and 'separating machine, the combination of the lower separator adapted to separate grains of one shape from those of another, the overacting fan, the reciprocating shoe arranged to receive air from superposedscreens in said shoe increasing upward in their inclination to the horizontal, and all inclined outwardly downward from the horizontal, and the gathering board or chute at the bottom of the shoe belowrsaid screens and arranged to deliver the .nally screened grain to the said lower separator, substantially as set forth. A

4. In a grain separating and grading machine, the combination with the overacting fan having a cylindrical drum or casing cut away on a plane near the top and inclined to the vertical, of the reciprocating shoe fitted closely to the opening in the fan-casing and having its inner end inclined substantially 5. In amachine of the class described, for i grading and separating grain, the combination of the frame, the fan mounted in said frame, the lower separator adapted to separate grains of one shape from those of another and containingan endless retarding-conveyer, a reciprocating shoe receiving air from the fan and having screening devices delivering directly to the lower separator, a driving mechanism connecting the said conveyer, fan and shoe, and providing a predetermined.

time relationship between the said parts, sulo stantia'lly as set forth. v p

6. In a grain grading andseparating ma# chine, the combinationof the lower inclined stationary screen, the endless retarding-coni veyer above the screen, the v reciprocating' shoe, the screening mechanism therein delivering directly to the lower separator, the fan adapted to deliver air to the shoe and connecting devices between the fan and the said conveyer whereby the fan also serves as a regulating device for the speed of the conveyer, and a power-transmitter for thel shoe actuated by thesaid connecting devices', substantially as set forth.

\ 7. In a grain grading and separatingma-` chine, the combination of the lower inclined stationary screen, the` endless retarding-conveyer above the screen, the reciprocating shoe, the screening mechanism therein delivering directly to the lower separator, the fan ladapted to deliver air tothe shoe, the relatively slow speeded driving device connected to the retarding-conveyer, the speeding-up y mechanism connecting thesaid driving device r with the fan and a power-transmitter connecting the fan with the shoe, substantially as set forth.

IOOr

In testimony whereof I have hereunto set my hand inthe presence of two subscribing witnesses. e

y JOI-INL. OWENS. Witnesses:

l C. N. WooDwARD,

,ERIC NORTON. 

